Galactic Atomic Hydrogen

Hydrogen gas is a major constituent of the Milky Way --- there is ~10^8 M_sun of atomic hydrogen in our galaxy.

Hot atomic hydrogen shows up from its optical emission lines, which are excited in material at ~10^3 K.

However, most of space is much cooler than 10^3 K, so optical lines are not seen.

In 1944, van de Hulst pointed out that there is a hyperfine transition in hydrogen in which the relative spins of the proton and electron change direction:

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This transition might then be observable via the 21cm radiation that it produces.

The transition is strongly forbidden (it fails to conserve spin), and so has a very long lifetime (~10^7 years). It is therefore much more likely that an excited atom will be collisionally de-excited.

However, there is so much atomic hydrogen out there that significant amounts of 21cm radiation are emitted.

This emission has proved crucial in developing our understanding of the galactic rotation curve

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Mike Merrifield (mm@phastr.soton.ac.uk) 14th June 1995 (last updated June 14th 1995)